5.4.3 Types offilters Fig. 5.44(b)illustrates a state-variable filter with electrically adjustable parameters. The state-variable filter provides three simultaneous outputs: a low-pass, a high-pass, and a band-pass s2/o2+2as/o,+1 (566) OOR-C/V (567) /On+2/on+1 bp (202RC /V )s (5.68) s/n+2/n+1
5.4.3 Types of filters Fig.5.44(b) illustrates a “state-variable filter” with electrically adjustable parameters. The state-variable filter provides three simultaneous outputs: a low-pass, a high-pass, and a band-pass: ( ) / 2 / 1 1 2 2 + + = − i n n ep s s s e e ( ) ( ) / 2 / 1 100 / 2 2 2 2 2 2 + + = − n n c i hp s s R C V s s e e ( ) ( ) / 2 / 1 20 / 2 2 + + = − n n C i b p s s RC V s s e e (5.66) (5.67) (5.68)
5.4.3 Types offilters C b Bessel Butterworth Eight pole filters Fig. 5.42 Sharper-cutoff low-pass filters(1)
5.4.3 Types of filters Fig. 5.42 Sharper-cutoff low-pass filters(1)
5.4.3 Types offilters 5 LHH ARY t 0.05 dB passband ripple 15 Eight pole In Butterworth fifi 30 tow pass f -35 40 50 -55 Eight- pole 0.5 d8 Chebyshev low Fass Attenuation 70 Seven pole -78 dB- 580 Cauer elliptic f=165′ f。=1.06 Typical seventh-order 10511523456811523456789 Cauer filte ( Not to scale Fig 5.42 Sharper-cutoff low-pass filters(2)
5.4.3 Types of filters Fig. 5.42 Sharper-cutoff low-pass filters(2)
5.4.3 Types offilters Many methods can be adopted in filter design to raise the filter order. four basic designing methods Butterworth, Chebyshev, Bessel, Cauer or elliptical filters With the increase in filter order the transition band become steeper, the attenuation increases thus the filtering effect strengthened Theoretically, it is possible to cascade several RC networks to enhance filter order and to accelerate the attenuation In practice, loading effect between different cascaded stages must be considered. To solve the loading effect, a better way is to use operational amplifiers to construct active filters
5.4.3 Types of filters • Many methods can be adopted in filter design to raise the filter order. four basic designing methods: Butterworth, Chebyshev, Bessel, Cauer or elliptical filters. With the increase in filter order, the transition band become steeper, the attenuation increases, thus the filtering effect strengthened. • Theoretically, it is possible to cascade several RC networks to enhance filter order and to accelerate the attenuation. In practice, loading effect between different cascaded stages must be considered. To solve the loading effect, a better way is to use operational amplifiers to construct active filters
5.4.3 Types offilters RC-network is connected to the input terminal of an op-amp The filter's cut-off frequency is then R and its gain K=1+ 2ITRC Connecting a high-pass network to the feedback loop at the amplifier yields a low-pass filter. As shown in Fig. 5.43(b), the filter has a cut-off frequency c2 2,c and its gain x Re f∫ R